# casting to int order of operations

I'm having trouble understanding why the following two should have any difference:

``````double d = 251.2453;
System.out.println(d);
d = .01 * ((int) (d * 100));
System.out.println(d);
``````

Output

251.2453
251.24

versus this following output from dividing by 100 rather than multiplying by .01 before the cast:

``````double d = 251.2453;
System.out.println(d);
d = ((int) (d * 100)) / 100;
System.out.println(d);
``````

Output

251.2453
251.0

• Because `100` is an `int` and `.01` is not. – azurefrog Aug 22 '17 at 16:12
• dividing by 100 is an integer operation so the result is an `int`, multipying by 0.01 is a floating point opertion and the result is an `double`. Note: neither option is particaulry useful. I suggest doing `Math.floor(d * 100) / 100.0` which is less likely to overflow, and have less representation error. – Peter Lawrey Aug 22 '17 at 16:12

In the second case you divide an Integer by an Integer, so the result is an Integer, while in the first case you multiply by 0.1 and therefore cast to a floating point number.

d = .01 * ((int) (d * 100));

1. `d * 100` -> still `double` - `25124.53`
2. `(int) ...` -> now an `int` so rounded down - `25124`
3. `.01 * ( ...` -> now a `float` - `251.24`
4. `d =` - now a double again - `251.24`

d = ((int) (d * 100)) / 100;

1. `d * 100` -> still `double` - `25124.53`
2. `(int) ...` -> now an `int` - `25124`
3. `... ) / 100` -> still an `int` - `251` <<--- Here's the cause!
4. `d =` - now a double again - `251.0`

In the first code, notice that

``````(d * 100)
``````

is enclosed within parentheses. Therefore, this operation is done first and the value returned is

``````251.2453 * 100 = 25124.53
``````

and then the (int) of 25124.53 is returned, i.e., 25124.
Now, you get

``````.01 * 25124 = 251.24
``````

In the second case, `d * 100` is again enclosed within parentheses, so the operation is done first, and then the (int) of that result is returned, i.e.:

``````(int) 25124.53 = 25124
``````

Now, 25124 is `int` and so is `100`. Therefore, an integer division takes place which returns the value after ignoring the fractional part. So you get

``````25124 / 100 = 251
``````

and that value is stored as `double` which finally becomes

``````251.0
``````

## Q.E.D.

In the first case when you do

``````d = .01 * ((int) (d * 100));
``````

it's actually

``````.01* 25124 = 251.24
``````

In the 2nd scenario

``````d = ((int) (d * 100)) / 100;
``````

It's actually

``````d= ((int) 25124.53)/100 = 25124/100 = 251
(it's division of int by int equal to int)
``````

Now when you print d it's output as 251.0